The anaerobic oxidation of ammonium

Jetten, Mike S. M.; Strous, Marc; Pas-Schoonen, Katinka T. van de; Schalk, J.A.C.; Dongen, Udo G.J.M. van; Graaf, A.A. Van de; Logemann, Susanne; Muyzer, Gerard; Loosdrecht, Mark C.M. van; Kuenen, J.G.

doi:10.1111/j.1574-6976.1998.tb00379.x

Cited by 685 publications

(127 citation statements)

References 44 publications

(49 reference statements)

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“…This organism was also postulated to couple the oxidation of nitrite to nitrate for generating reducing equivalents for CO 2 fixation ( Van de Graaf et al 1997). Candidatus B. anammoxidans grows slowly and has been reported to have a doubling time of 11 days at pH 8 and 40°C (Jetten et al 1999). The advantages of the anammox process over the traditional combination of nitrification and denitrification for wastewater treatment are lower oxygen demand, which is needed by nitrifiers for partial oxidation of ammonium to nitrite, and no requirement for external carbon sources because the process is autotrophic.…”

Section: Introductionmentioning

confidence: 98%

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Enrichment and characterization of an anammox bacterium from a rotating biological contactor treating ammonium-rich leachate

Egli

Fanger

Alvarez

et al. 2001

Archives of Microbiology

545

242

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Anaerobic ammonium oxidation with nitrite to N2 (anammox) is a recently discovered microbial reaction with interesting potential for nitrogen removal from wastewater. We enriched an anammox culture from a rotating disk contactor (near Kölliken, Switzerland) that was used to treat ammonium-rich leachate with low organic carbon content. This enrichment led to a relative population size of 88% anammox bacteria. The microorganism carrying out the anammox reaction was identified by analysis of the 16S rDNA sequence and by fluorescence in situ hybridization (FISH) with 16S-rRNA-targeting probes. The percentage sequence identity between the 16S rDNA sequences of the Kölliken anammox organism and the archetype anammox strain Candidatus Brocadia anammoxidans was 90.9%, but between 98.5 and 98.9% with Candidatus Kuenenia stuttgartiensis, an organism identified in biofilms by molecular methods. The Kölliken culture catalyzed the anaerobic oxidation of ammonium with nitrite in a manner seemingly identical to that of Candidatus B. anammoxidans, but exhibited higher tolerance to phosphate (up to 20 mM) and to nitrite (up to 13 mM) and was active at lower cell densities. Anammox activity was observed only between pH 6.5 and 9, with an optimum at pH 8 and a temperature optimum at 37 degrees C. Hydroxylamine and hydrazine, which are intermediates of the anammox reaction of Candidatus B. anammoxidans, were utilized by the Kölliken organisms, and approximately 15% of the nitrite utilized during autotrophic growth was converted to nitrate. Electron microscopy showed a protein-rich region in the center of the cells surrounded by a doughnut-shaped region containing ribosomes and DNA. This doughnut-shape region was observed with FISH as having a higher fluorescence intensity. Similar to Candidatus B. anammoxidans, the Kölliken anammox organism typically formed homogenous clusters containing up to several hundred cells within an extracellular matrix.

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Section: Introductionmentioning

confidence: 98%

“…The basic physiological aspects of the anammox process have been studied in depth mostly by a single research group in Delft (Jetten et al 1999). However, anammox activity has been suspected for other wastewater treatment plants with uncharacterized high ammonium losses (Helmer and Kunst 1998;Siegrist et al 1998;Schmid et al 2000).…”

Section: Introductionmentioning

confidence: 99%

Enrichment and characterization of an anammox bacterium from a rotating biological contactor treating ammonium-rich leachate

Egli

Fanger

Alvarez

et al. 2001

Archives of Microbiology

545

242

View full text Add to dashboard Cite

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“…In contrast, nitrous oxide concentrations were greatest in river and municipal sewage while it was virtually undetectable in swine waste. This was not unexpected given that nitrous oxide is not formed in anaerobic conditions in the absence of exogenous electron acceptors that sustain anaerobic respiration (Jetten et al, 1999). No significant changes in measured bicarbonate concentrations were seen in samples over 5 weeks of storage (Figure 1).…”

Section: Resultsmentioning

confidence: 80%

A Gas Chromatographic Method for the Determination of Bicarbonate and Dissolved Gases

Loughrin

Antle

Polk

2017

Front. Environ. Sci.

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“…Heavy metals are not easily biodegradable and can accumulate in organisms, causing biological accumulation toxicity. While there are few studies on the heavy-metal inhibition of ANAMMOX, in general about 1 mmol L -1 HgCl 2 fully inhibited ANAMMOX activity [22].…”

Section: Figure 1 Nitrogen Removal Performance In Anmbr Treating Landmentioning

confidence: 95%

Autotrophic ammonia removal from landfill leachate using anaerobic membrane bioreactor

Suneethi

Joseph

2017

Eco-Tech

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Anaerobic Membrane Bioreactor (AnMBR) is an innovative high cell density system having complete biomass retention, high reactor loading and low sludge production and suitable for developing slow growing autotrophic bacterial cultures such as ANAMMOX. The Anaerobic Ammonium Oxidation (ANAMMOX) process is an advanced biological nitrogen removal removes ammonia using nitrite as the electron acceptor without oxygen. The NH 4 + -N in the landfill leachate that is formed due to the release of nitrogen from municipal solid waste (MSW), when discharged untreated, into the surface water can result in eutrophication, aquatic toxicity and emissions of nitrous oxide (N 2 O) to atmosphere. Besides, NH 4 + -N accumulation in landfills poses long term pollution issue with significant interference during post closure thereby requiring its removal prior to ultimate disposal into inland surface waters. The main objective of this study was to investigate the feasibility and treatment efficiency of treating landfill leachate (to check) for removing NH

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The anaerobic oxidation of ammonium

Cited by 685 publications

References 44 publications

Enrichment and characterization of an anammox bacterium from a rotating biological contactor treating ammonium-rich leachate

Enrichment and characterization of an anammox bacterium from a rotating biological contactor treating ammonium-rich leachate

A Gas Chromatographic Method for the Determination of Bicarbonate and Dissolved Gases

Autotrophic ammonia removal from landfill leachate using anaerobic membrane bioreactor

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